'''
TOP COMMANDS
'''

# load libraries
import os
import pandas as pd
import numpy as np
import random
import time

from DataSynthesizer.DataDescriber import DataDescriber
from DataSynthesizer.DataGenerator import DataGenerator

# file paths - adapt main_dir pathway
main_dir = "/Users/jonathanlatner/Documents/GitHub/KEM_GAN/latner/projects/comparison/"
data_files = "data_files/"
original_data = "data_files/original/"
synthetic_data = "data_files/synthetic/datasynthesizer/"
duration = "duration/"

os.chdir(main_dir)

# beginning commands
pd.set_option('display.width', 1000)
pd.set_option('display.float_format', '{:.2f}'.format)

# Set the random seed
my_seed = 1234

'''
LOAD DATA
'''


'''
Step 3 DataDescriber

    a) Instantiate a DataDescriber.
    b) Compute the statistics of the dataset.
    c) Save dataset description to a file on local machine.
'''

"""
DataSynthesizer
Experiments were performed using XX parameters: 
    1) differential privacy (epsilon, ϵ) parameters.
    2) network degree
    3) the number of copies
"""

data = ["sd2011"] # Real data
copies = [1]
parents = [2]
epsilon = [0]

for d in data:

    df_duration = [] # empty data frame
    for m in copies:
        
        for p in parents:
            for e in epsilon:
                for j in range(m):    
                    
                    j = j + 1
        
                    my_seed = my_seed + 1
                    np.random.seed(my_seed)
                    random.seed(my_seed)
        
                    # Create a unique filename based on the values
                    filename_ods = f"{d}.csv"
                    description = 'description.json'
                        
                    filename_path = os.path.join(original_data, filename_ods)
                    df_ods = pd.read_csv(filename_path, index_col=False)
                        
                    # input dataset
                    input_data = filename_path
                        
                    # An attribute is categorical if its domain size is less than this threshold.
                    # Here modify the threshold to adapt to the domain size of "education" (which is 14 in input dataset).
                    threshold_value = 30
                        
                    # location of two output files
                    description_file = os.path.join(synthetic_data, description)
                        
                    # Number of tuples generated in synthetic dataset.
                    num_tuples_to_generate = len(df_ods.index) 
                        
                    '''
                    Step 3 DataDescriber
                    '''
                    # 3a. Instantiate a DataDescriber.
                    describer = DataDescriber(category_threshold=threshold_value)
        
                    
                    # 3b. Compute the statistics of the dataset.
                    describer.describe_dataset_in_correlated_attribute_mode(dataset_file=input_data,
                                                                            k=p,
                                                                            epsilon=e,
                                                                            seed=my_seed)  
        
        
                    # 3c. Save dataset description to a file on local machine.
                    describer.save_dataset_description_to_file(description_file)
                        
                    '''
                    Step 4 generate synthetic dataset
                    '''
        
                    # 4a. Instantiate a DataGenerator.
                    generator = DataGenerator()
                    
                    # 4b. Generate a synthetic dataset.
                    generator.generate_dataset_in_correlated_attribute_mode(num_tuples_to_generate, description_file)
                    
                    # 4c. Save it to local machine.
                    # Create a unique filename based on the values
                    filename_sds = f"sds_datasynthesizer_{d}_k_{p}_e_{e}_m_{m}_n_{j}.csv"
                    # Construct the full file path using os.path.join()
                    full_path_sds = os.path.join(synthetic_data, filename_sds)
                    # generator.save_synthetic_data(full_path_sds)
                        
                    print("")
                    print("data:",d)
                    print("parents:",p)
                    print("epsilon:",e)
                    print("copes:",m)
                    print("number:",j)
                        
